Systems, Methods, and Apparatus for a Low Rate PHY Structure

1. An apparatus for use in association with wireless communication, the apparatus comprising: a modem to generate a preamble and a data field; the preamble comprising a repeated short training field and a repeated long training field; the repeated short training field comprising only two short training field repetitions; the repeated long training field comprising only two long training field repetitions; the repeated long training field to immediately follow the repeated short training field in the preamble; when in operation, the wireless communication to have a bandwidth of 1 megahertz and to use orthogonal frequency division multiplexing; the repeated short training field and the repeated long training field to permit detection at the bandwidth of 1 megahertz.

2. The apparatus of claim 1 , wherein: the preamble and the data field are to be comprised in a packet structure; and the modem is to convert the packet structure into a signal for wireless transmission.

3. The apparatus of claim 1 , wherein: the preamble and the data field are to be modulated in accordance with: binary phase shift keying; or quadrature phase shift keying.

4. The apparatus of claim 1 , wherein: the preamble and the data field are to be coded with a coding rate of one-half.

5. The apparatus of claim 1 , wherein: the apparatus further comprises a touch screen user interface device, a sensing device, and a battery.

6. The apparatus of claim 1 , wherein: the preamble and the data field are to be comprised in a packet structure; and the data field is repeated in the packet structure.

7. The apparatus of claim 1 , wherein: the preamble and the data field are to be comprised in a packet structure; and the data field is repeated in the packet structure.

8. The apparatus of claim 1 , wherein: the modem further comprises: at least one antenna; a radio transceiver; and at least one memory to store machine-executable instructions that, when executed by a machine, result in generation, at least in part, of the preamble and the data field.

9. An apparatus for use in wireless communication, the apparatus comprising: a modem to receive a preamble and a data field in the wireless communication; the preamble comprising a repeated short training field and a repeated long training field; the repeated short training field comprising only two short training field repetitions; the repeated long training field comprising only two long training field repetitions; the repeated long training field to immediately follow the repeated short training field in the preamble; when in operation, the wireless communication to have a bandwidth of 1 megahertz and to use orthogonal frequency division multiplexing; the repeated short training field and the repeated long training field to permit detection at the bandwidth of 1 megahertz.

10. The apparatus of claim 9 , wherein: the preamble and the data field are comprised in a packet structure; the receiver is to receive a signal that encodes, at least in part, the packet structure.

11. The apparatus of claim 9 , wherein: the preamble and the data field are modulated in accordance with: binary phase shift keying; or quadrature phase shift keying.

12. The apparatus of claim 9 , wherein: the preamble and the data field are coded with a coding rate of one-half.

13. The apparatus of claim 9 , wherein: the apparatus comprises a touch screen user interface device, a sensing device, and a battery.

14. The apparatus of claim 9 , wherein: the preamble and the data field are comprised in a packet structure; and the data field is repeated in the packet structure.

15. The apparatus of claim 9 , wherein: the modem further comprises: at least one antenna; a radio transceiver; and at least one memory storing machine-executable instructions that, when executed by a machine, result in decoding, at least in part, of the preamble and the data field.

16. At least one memory storing machine-executable instructions that, when executed by a machine, result in operations comprising: generating by a modem a preamble and a data field for use in wireless communication; the preamble comprising a repeated short training field and a repeated long training field; the repeated short training field comprising only two short training field repetitions; the repeated long training field comprising only two long training field repetitions; the repeated long training field to immediately follow the repeated short training field in the preamble; when in operation, the wireless communication to have a bandwidth of 1 megahertz and to use orthogonal frequency division multiplexing; the repeated short training field and the repeated long training field to permit detection at the bandwidth of 1 megahertz.

17. The at least one memory of claim 16 , wherein: the preamble and the data field are to be comprised in a packet structure; and the modem is to convert the packet structure into a signal for wireless transmission.

18. The at least one memory of claim 16 , wherein: the preamble and the data field are to be modulated in accordance with: binary phase shift keying; or quadrature phase shift keying.

19. The at least one memory of claim 16 , wherein: the preamble and the data field are to be coded with a coding rate of one-half.

20. The at least one memory of claim 16 , wherein: the preamble and the data field are to be comprised in a packet structure; and the data field is repeated in the packet structure.

21. At least one memory storing machine-executable instructions that, when executed by a machine, result in operations comprising: transmitting a preamble and a data field in wireless communication; the preamble comprising a repeated short training field and a repeated long training field; the repeated short training field comprising only two short training field repetitions; the repeated long training field comprising only two long training field repetitions; the repeated long training field to immediately follow the repeated short training field in the preamble; when in operation, the wireless communication to have a bandwidth of 1 megahertz and to use orthogonal frequency division multiplexing; the repeated short training field and the repeated long training field to permit detection at the bandwidth of 1 megahertz.

22. The at least one memory of claim 21 , wherein: the preamble and the data field are to be comprised in a packet structure; and the operations further comprise converting the packet structure into a signal for wireless transmission.

23. The at least one memory of claim 21 , wherein: the preamble and the data field are to be modulated in accordance with: binary phase shift keying; or quadrature phase shift keying.

24. The at least one memory of claim 21 , wherein: the preamble and the data field are to be coded with a coding rate of one-half.

25. The at least one memory of claim 21 , wherein: the preamble and the data field are to be comprised in a packet structure; and the data field is repeated in the packet structure.

26. At least one memory storing machine-executable instructions that, when executed by a machine, result in operations comprising: receiving a preamble and a data field in wireless communication; the preamble comprising a repeated short training field and a repeated long training field; the repeated short training field comprising only two short training field repetitions; the repeated long training field comprising only two long training field repetitions; the repeated long training field to immediately follow the repeated short training field in the preamble; when in operation, the wireless communication to have a bandwidth of 1 megahertz and to use orthogonal frequency division multiplexing; the repeated short training field and the repeated long training field to permit detection at the bandwidth of 1 megahertz.

27. The at least one memory of claim 26 , wherein: the preamble and the data field are comprised in a packet structure; as received, the packet structure is encoded by a signal.

28. The at least one memory of claim 26 , wherein: the preamble and the data field are modulated in accordance with: binary phase shift keying; or quadrature phase shift keying.

29. The at least one memory of claim 26 , wherein: the preamble and the data field are coded with a coding rate of one-half.

30. The at least one memory of claim 26 , wherein: the preamble and the data field are comprised in a packet structure; and the data field is repeated in the packet structure.

31. A method for use in association with wireless communication, the method comprising: generating by a modem a preamble and a data field for use in the wireless communication; the preamble comprising a repeated short training field and a repeated long training field; the repeated short training field comprising only two short training field repetitions; the repeated long training field comprising only two long training field repetitions; the repeated long training field to immediately follow the repeated short training field in the preamble; when in operation, the wireless communication to have a bandwidth of 1 megahertz and to use orthogonal frequency division multiplexing; the repeated short training field and the repeated long training field to permit detection at the bandwidth of 1 megahertz.

32. The method of claim 31 , wherein: the preamble and the data field are to be comprised in a packet structure; and the modem is to convert the packet structure into a signal for wireless transmission.

33. The method of claim 31 , wherein: the preamble and the data field are to be modulated in accordance with: binary phase shift keying; or quadrature phase shift keying.

34. The method of claim 31 , wherein: the preamble and the data field are to be coded with a coding rate of one-half.

35. The method of claim 31 , wherein: the preamble and the data field are to be comprised in a packet structure; and the data field is repeated in the packet structure.

36. A method for use in association with wireless communication, the method comprising: transmitting a preamble and a data field in the wireless communication; the preamble comprising a repeated short training field and a repeated long training field; the repeated short training field comprising only two short training field repetitions; the repeated long training field comprising only two long training field repetitions; the repeated long training field to immediately follow the repeated short training field in the preamble; when in operation, the wireless communication to have a bandwidth of 1 megahertz and to use orthogonal frequency division multiplexing; the repeated short training field and the repeated long training field to permit detection at the bandwidth of 1 megahertz.

37. The method of claim 36 , wherein: the preamble and the data field are to be comprised in a packet structure; and the method further comprises converting the packet structure into a signal for wireless transmission.

38. The method of claim 26 , wherein: the preamble and the data field are to be modulated in accordance with: binary phase shift keying; or quadrature phase shift keying.

39. The method of claim 36 , wherein: the preamble and the data field are to be coded with a coding rate of one-half.

40. The method of claim 36 , wherein: the preamble and the data field are to be comprised in a packet structure; and the data field is repeated in the packet structure.

41. A method for use in association with wireless communication, the method comprising: receiving a preamble and a data field in the wireless communication; the preamble comprising a repeated short training field and a repeated long training field; the repeated short training field comprising only two short training field repetitions; the repeated long training field comprising only two long training field repetitions; the repeated long training field to immediately follow the repeated short training field in the preamble; when in operation, the wireless communication to have a bandwidth of 1 megahertz and to use orthogonal frequency division multiplexing; the repeated short training field and the repeated long training field to permit detection at the bandwidth of 1 megahertz.

42. The method of claim 41 , wherein: the preamble and the data field are comprised in a packet structure; as received, the packet structure is encoded by a signal.

43. The method of claim 41 , wherein: the preamble and the data field are modulated in accordance with: binary phase shift keying; or quadrature phase shift keying.

44. The method of claim 41 , wherein: the preamble and the data field are coded with a coding rate of one-half.

45. The method of claim 41 , wherein: the preamble and the data field are comprised in a packet structure; and the data field is repeated in the packet structure.